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Thermal behavior of La3+, Ni2+ and Sn4+ co-doped CaCu3Ti4O12 ceramics dielectric response

Alexey Tsyganov, Natalia O. Morozova, María Vikulova, Aleksandra Asmolova, Ilya Zotov, Alexey M. Bainyashev, Alexander Gorokhovsky, Nikolay Gorshkov

2023Inorganic Chemistry Communications16 citationsDOIOpen Access PDF

Abstract

Dielectric properties control by elements co-doping is important research problem for application of ceramics based on CaCu 3 Ti 4 O 12 (CCTO) as a component of electronic devices. In this work, the effect of La 3+ , Ni 2+ and Sn 4+ co-doping on the dielectric properties of CCTO ceramics, including their thermal stability, was investigated. Solid solutions with compositions of Ca 1-x La 2x/3 Cu 2.95 Ni 0.05 Ti 3.7 Sn 0.3 O 12 (x = 0.010–0.055), Ca 0.94 La 0.027 Cu 3-y Ni y Ti 3.7 Sn 0.3 O 12 (y = 0.020–0.065), Ca 0.94 La 0.027 Cu 2.95 Ni 0.05 Ti 4-z Sn z O 12 (z = 0.25–0.4) were synthesized by the solid-state method at 970 °C. The incorporation of doping elements into the ceramic structure after sintering at 1080 °C was confirmed by X-ray diffraction data. Grain morphology and size of various solid solutions were estimated from scanning electron microscopy photographs. The optimal concentrations of doping elements were x = 0.04, y = 0.05, and z = 0.3, which is evident by high permittivity ε′ = 11,000 and low dielectric losses tanδ = 0.051 at f = 1 kHz. La 3+ , Ni 2+ and Sn 4+ co-doped CCTO ceramics demonstrated high stability of the permittivity in the temperature range from −60 to +125 °C. Based on the demonstrated dielectric properties, the presented solid solutions are suitable for use in ceramic capacitors.

Topics & Concepts

Materials scienceDielectricCeramicDopingSinteringCeramic capacitorThermal stabilityDielectric lossPermittivityScanning electron microscopeCapacitorAnalytical Chemistry (journal)Grain sizeMineralogyComposite materialChemical engineeringOptoelectronicsElectrical engineeringChemistryEngineeringChromatographyVoltageDielectric properties of ceramicsFerroelectric and Piezoelectric MaterialsMicrowave Dielectric Ceramics Synthesis